JP4592964B2 - Authenticity identifier, authenticity-identifiable information recording medium and article, and authenticity identification label and transfer sheet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
In the present invention, it is difficult to find an authenticity confirmation method from the appearance, and it is processed directly into a base material to be an authenticity identifier, or processed into a form of a label or a transfer sheet. The present invention relates to an authenticity identifier that is attached to a high-priced product or the like and has a form suitable for identifying authenticity.
The present invention relates to an information recording medium in which the authenticity identifier is applied to, for example, an ID card such as a deposit / save card or a credit card, or other information recording medium.
The present invention relates to an article in which the authenticity identifier is applied to a high-priced product, a product that is easily copied illegally, or a case thereof.
The present invention further relates to an authenticity discriminating label or an authenticity discriminating transfer sheet suitable for applying the authenticity identifier to various resin recording media and articles.
[0002]
[Prior art]
Information recording media on which information is recorded include: (1) those that generate monetary value when used, such as deposit and saving cards or credit cards, and (2) value written on face value, such as banknotes, securities, and gift certificates. (3) Stock certificates, lottery tickets, or betting tickets, etc. that have value determined speculatively or by other factors, and (4) monetary, such as passports or ID cards There is no direct value, but there is something that guarantees the qualifications and behavior of the owner.
[0003]
Information recording media such as those described above have economic or other value, directly or indirectly, so that they are counterfeited to produce them with improper intentions, or are genuine or used and should be discarded. There is no end to the transformation that uses and remakes.
[0004]
In order to prevent counterfeiting and alteration, banknotes, etc., use special paper with a watermark, and are subjected to elaborate printing by a printing method using engraved intaglio and specially formulated ink. . Also, stock certificates, securities, or gift certificates are printed according to banknotes, although a general-purpose printing method is used.
In addition, for deposit and saving cards or credit cards, etc., invisible electronic information is recorded in the magnetic stripe, so it is difficult to counterfeit only with visual elements. A difficult-to-forget hologram sticker is attached to prevent forgery.
[0005]
Among these, the hologram sticker is often used for the purpose of guaranteeing the authenticity of an object to be pasted because it is difficult to manufacture a hologram.
However, even with hologram seals, the principle itself is well known, and even if the manufacturing technology is advanced, it can be forged by learning the technology. There is a need for authenticity identifiers based on.
[0006]
By the way, the retroreflective sheet with transparent micro beads fixed on a sheet of film, etc., reflects the illumination light of automobiles at night well. Alerts are being made.
[0007]
Since this retroreflective sheet is brilliant in appearance, it is highly decorative and seems to be suitable for application to cards and the like, but conventional retroreflective sheets have uniform reflection characteristics. Therefore, it was relatively easy to duplicate an object having the same appearance, and a function as an authenticator could not be provided.
[0008]
[Problems to be solved by the invention]
Therefore, in the present invention, the conventional retroreflective sheet has only reflectivity and can not be observed in a normal state that it can be forged by the acquisition of the manufacturing technique of a person with an unauthorized intention, It is an object of the present invention to make identification possible by using appropriate means so that it can be used as an authenticity identifier.
[0009]
[Means for solving the problems]
In the present invention, by arranging a liquid crystal layer showing polychromaticity depending on the viewing angle on the background of the transparent microbeads constituting the retroreflective sheet, the appearance is not different from the conventional retroreflective sheet, By observing through a plate or by using parallel light illumination, it is possible to make it difficult to get close to the genuine product by using a reproduction that depends on the appearance.
[0010]
According to a first aspect of the present invention, a liquid crystal layer containing a cholesteric liquid crystal pigment having polychromaticity depending on a viewing angle and a transparent microbead layer made of transparent microbeads having retroreflectivity are laminated on a base material. It relates to the authentic authenticator The The liquid crystal layer forms a latent image. Rumo It is. The second invention is the first True of The present invention relates to an authenticity-identifiable information recording medium, characterized in that the base material of the authenticity identifier is a base material of an information recording medium on which information is recorded. First 3 The invention of 1st or 2nd invention This invention relates to a genuinely identifiable article characterized in that the base material of the authenticity identifier is a medium storing high-priced goods or software, or a packaging container thereof. First 4 The present invention relates to a liquid crystal layer containing a bonding layer made of a transparent resin, a transparent microbead layer made of transparent microbeads having retroreflectivity, and a cholesteric liquid crystal pigment having polychromaticity depending on the viewing angle on the lower surface of the transparent film. , And an authenticity distinguishing label characterized in that an adhesive layer is laminated. First 5 According to the present invention, on the lower surface of the film, a bonding layer made of a transparent resin, a transparent microbead layer made of transparent microbeads having retroreflectivity, a liquid crystal layer containing a cholesteric liquid crystal pigment having polychromaticity depending on viewing angle, and The present invention relates to an authenticity-identifying transfer sheet in which a transfer layer composed of each adhesive layer is laminated so as to be peelable from the film.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described below with reference to the drawings.
As shown in FIG. 1, the authenticity identifier 1 of the present invention has, for example, a liquid crystal layer 3 made of cholesteric liquid crystal or the like laminated on a part of a base material 2. A transparent microbead layer 4 in which a part of the lower side of each bead is embedded in the liquid crystal layer 3 and densely arranged is laminated, and a protective layer 5 is laminated so as to cover the transparent microbead layer 4. is there.
[0012]
FIG. 1 (a) shows a basic authenticity identifier 1. In the laminated structure shown in FIG. 1, the protective layer 5 is practically provided in terms of protection of transparent microbeads. However, it can be omitted. Alternatively, in the laminated structure of the authenticity identification body 1 shown in FIG. 1, if the liquid crystal layer 3 is a sheet having strength, the base material 2 can be omitted. It consists of a laminated body with the transparent microbead layer 4.
[0013]
FIG. 1 (b) is a view showing an authenticator 1 with several layers that are preferably added, and the positions where the layers are added are the upper and lower positions sandwiching the transparent microbead layer 4.
In FIG. 1 (a), the transparent microbead layer 4 is directly laminated on the liquid crystal layer 3. However, as shown in FIG. 1 (b), the transparent adhesive layer 6 is composed of the liquid crystal layer 3 and the transparent microbeads. You may laminate | stack between the layers 4.
In the case of quoting FIG. 1A, a part of the transparent microbead layer 4 on the lower side of each transparent microbead was buried in the liquid crystal layer 3 and arranged densely, as shown in FIG. When the transparent adhesive layer 6 is accompanied, the lower part of each transparent microbead is buried in the intermediate layer 6 and densely arranged.
In this manner, the upper surface of the liquid crystal layer 3 can be formed flat by passing through the transparent adhesive layer 6.
[0014]
Further, in FIG. 1A, the transparent microbead layer 4 is covered with a protective layer 5, and if viewed from a different perspective, each transparent microbead has a part of the upper side on the lower surface of the protective layer 5. As shown in FIG. 1 (b), each transparent microbead is densely arranged with a part of each upper side buried in the lower surface of the transparent intermediate layer 7 made of a transparent resin. The transparent microbead layer 4 may be formed, and the protective layer 5 may be stacked on the transparent intermediate layer 7.
[0015]
In this way, the upper surface of the protective layer 5 can be formed flat by way of the transparent intermediate layer 7. In addition, when the protective layer 5 is a film such as a transparent film, it is usual to laminate each layer with the transparent film as an object of processing, but when there is a transparent intermediate layer 7 The transparent intermediate layer 7 is first laminated on the transparent film, and the transparent microbead layer can be formed by spraying the transparent microbeads on the transparent intermediate layer 7, so that the transparent intermediate layer 7 is better. Easy to manufacture. This can be said in the manufacture of the authenticity distinguishable label and authenticity distinguishable transfer sheet described later.
[0016]
In FIG. 1A, the liquid crystal layer 3 is drawn to be approximately the same size as the transparent microbead layer 4, but it may be so, or at least partly below the transparent microbead layer 4. I just need it. In addition, a portion without the transparent microbead layer 4 may be formed on the liquid crystal layer 3.
[0017]
The liquid crystal layer 3 may be a uniform layer using one type of liquid crystal, but two or more types of liquid crystal may be used. When two or more kinds of liquid crystals are used, it is of course possible to use a mixture of them, but as shown in FIG. 2 (a) or FIG. As described above, the liquid crystal layer 3 composed of the liquid crystal layer A (reference numeral 3a) and the liquid crystal layer B (reference numeral 3b) may be formed.
The formed single liquid crystal layer can also be patterned by partially applying light such as ultraviolet rays or laser light, heat, or chemicals.
[0018]
The material of each layer constituting the authenticity identifier 1 of the present invention will be described below.
The base material 2 is a plastic sheet if it is a credit card or the like, and is paper if it is a cash voucher or identification card.
Including these, the material of the base material 2 includes polyesters such as polyvinyl chloride, polyvinyl alcohol, polysulfone and polyethylene terephthalate, polyarylate, polycarbonate, polyamide, polyimide, cellulose diacetate, cellulose triacetate, polystyrene, acrylic, polypropylene, In addition to resins such as polyethylene or polyolefin vinyl alcohol, metals such as aluminum and copper, paper, and impregnated paper such as resin or latex can be used alone or in combination.
When heat resistance is required, sheets of amorphous polyester resin, blended resin of amorphous polyester resin and polycarbonate resin, or the like can be used as the material of the base material 2.
[0019]
Although the thickness of the base material 2 changes with materials, it is the range of about 10 micrometers-5 mm normally. In particular, in the case of a magnetic card, when the base sheet conforms to the ISO standard, the thickness is 0.76 mm. When the substrate 2 is formed of a polyvinyl chloride resin (hereinafter referred to as PVC), normally, a white PVC sheet having a thickness of 280 μm is used as a core sheet, and two sheets are laminated, and transparent PVC having a thickness of 100 μm on each side. A four-layer base material (total thickness 0.76 mm) is used in which sheets are stacked as an oversheet and laminated by hot pressing or the like.
[0020]
The liquid crystal layer 3 is preferably configured using a liquid crystal pigment made from cholesteric liquid crystal. Cholesteric liquid crystals exhibit two optical properties, selective reflectivity and circular polarization, when the pitch P (the film thickness necessary for the liquid crystal molecules to rotate 360 °) and the wavelength λ of incident light are substantially equal.
The liquid crystal layer 3 may be formed by coating or printing using a paint composition or ink composition containing a liquid crystal pigment, but may also be formed by laminating sheets of plastic containing liquid crystal or a liquid crystal polymer. Good.
In addition, it can also be patterned by using two or more liquid crystal or liquid crystal pigments.
The thickness of the liquid crystal layer 3 is about 0.5 to 50 μm.
[0021]
The transparent microbeads constituting the transparent microbead layer 4 are preferably microsphere-shaped transparent beads made of glass and having a diameter of 10 to 100 μm, preferably about 50 μm or less. The transparent microbeads may be made of resin such as acrylic resin, polystyrene resin, or polyvinyl acetate resin in addition to glass.
Normally, a retroreflective sheet for traffic signs or the like uses a half of a colorless and transparent sphere coated with a reflective metal thin film such as aluminum to improve the reflectivity during illumination. As the microbeads, it is desirable to use microbeads that do not involve a reflective metal thin film because they utilize the reflection of the lower liquid crystal layer.
[0022]
If the transparent microbead layer 4 is laminated on the liquid crystal layer 3, it can be formed by spraying the transparent microbeads before the liquid crystal layer 3 still loses its adhesiveness. Spreading is performed uniformly, and it is sufficient that there is one transparent microbead, and it is not preferable to overlap two or more layers.
If necessary, the transparent microbead layer 4 can be formed in a pattern, and using a pattern mask, the transparent microbeads are dispersed in a pattern, or an appropriate binder resin and solvent are used to form an ink composition. The printing can be performed by a known printing method such as screen printing.
[0023]
Even in the case where the transparent microbead layer 4 has a laminated structure in which layers other than the liquid crystal 3 are laminated, the previously formed layer is formed by coating or printing, and the transparent layer is still transparent before the layer loses its adhesiveness. It can be formed by spraying microbeads.
As shown in FIG. 1B, when the transparent adhesive layer 6 is in the lower layer of the transparent microbead layer 4, after the transparent adhesive layer 6 is formed, the transparent adhesive layer 6 still does not lose its tackiness. Sprinkle transparent microbeads.
Further, as described above, when the protective layer 5 is a film such as a transparent film, the transparent intermediate layer 7 is laminated on the transparent film, and the transparent intermediate layer 7 still does not lose its adhesiveness. In the meantime, the transparent microbead layer 4 can be formed by spraying transparent microbeads.
[0024]
Alternatively, when the transparent microbead layer 4 is already available in the form of a transparent microbead film laminated on a film or the like, the transparent microbead film 4 may be applied by laminating it with other layers. Good.
[0025]
The protective layer 5 improves the durability of the layer existing on the uppermost surface, for example, abrasion resistance, solvent resistance, or contamination resistance, except for the transparent microbead layer 4 or other protective layer 5. Therefore, when the requirement for durability is high, it is provided by printing or coating using an ink composition or paint composition containing a thermosetting resin or ionizing radiation curable resin as a resin component, and heating or ionization. It is formed by curing by irradiation with radiation.
[0026]
Specific examples of the ionizing radiation curable resin include polyurethane acrylate, polyester acrylate, epoxy acrylate, polyether acrylate, etc., and these are polyfunctional or monofunctional to adjust viscosity or crosslinking density of each prepolymer. These monomers may be added and used, and if necessary, a known photoreaction initiator or sensitizer may be added and used. In addition, polyene / thiol ionizing radiation curable resins are also excellent in wear resistance and can be preferably used.
[0027]
As shown in FIG. 1, when the protective layer 5 is directly laminated on the transparent microbead layer 4, the thickness is increased so that the unevenness caused by the arrangement of the transparent microbeads is filled and the upper surface becomes flat. It is preferable that it is at least 1/2 of the diameter of the transparent microbeads.
[0028]
The transparent adhesive layer 6 has good adhesion to the liquid crystal layer 3 and the transparent microbead layer 4, and can hold the transparent microbeads of the transparent microbead layer 4 even if the authenticity identifier is bent. Thus, it is preferable to use a flexible resin.
[0029]
In the same meaning, the transparent intermediate layer 7 has good adhesiveness to the protective layer 5 and the transparent microbead layer 4 and is configured using a flexible resin for the same reason as the transparent adhesive layer 6 described above. It is preferable.
[0030]
Actually, both of the transparent adhesive layer 6 and the transparent intermediate layer 7 can be constituted by using the same transparent resin. Specifically, the transparent resin used as the binder resin of the ink composition or the coating composition. Can be used.
Specifically, rosin modified maleic acid resin, nitrocellulose, cellulose acetate, cellulose butylacetate, ethyl cellulose, polyamide resin, chlorinated rubber, cyclized rubber, polyamide resin, polyvinyl chloride resin, vinyl chloride / vinyl acetate copolymer resin, Examples thereof include ethylene / vinyl acetate copolymer resin, chlorinated polypropylene, acrylic resin, and polyurethane resin.
[0031]
The authenticity identifier 1 of the present invention described with reference to FIG. 1 (a) or FIG. 1 (b) can be formed by sequentially laminating each layer on a base material 2. Thus, on a thin base material that is easy to handle, such as a transparent film, each layer is generally laminated in reverse order to produce a film for forming an authenticity identification layer, and using the obtained film for forming an authenticity identification layer Each layer is preferably laminated on the substrate 2.
[0032]
3A and 3B are diagrams illustrating such an authenticity identification layer forming film 10.
As shown in FIG. 3 (a), one type of the authentic identification layer forming film 10 includes a transparent intermediate layer 7, a transparent microbead layer 4, a transparent adhesive layer 6, a liquid crystal layer on the lower surface of the transparent film 11. 3 and the adhesive layer 8 are laminated in order.
[0033]
In the type as shown in FIG. 3A, the transparent intermediate layer 7 is necessary for laminating the transparent film 11 and the transparent microbead layer 4, but the transparent adhesive layer 6 may be omitted. In addition, the adhesive layer 8 may be omitted, but when applying the authenticity identification layer forming film 10 to an adherend such as the substrate 2, it is possible to omit applying the adhesive each time. It is preferable that they are laminated.
[0034]
This type of authenticity identifying layer forming film 10 is an authenticity distinguishing label suitable for being laminated on the substrate 2 as an adherend with the transparent film 11 facing upward. The lamination is performed by pressurization, preferably by pressurization while heating.
[0035]
As shown in FIG. 3B, another type of the authenticity identification layer forming film 10 includes a release layer 12, a protective layer 5, a transparent intermediate layer 7, and a transparent microbead layer 4 on the lower surface of the transparent film 11. The transparent adhesive layer 6, the liquid crystal layer 3, and the adhesive layer 8 are laminated in order. In the structure shown in FIG. 3A, peeling is performed between the transparent film 11 and the bonding layer 7. The layer 12 and the protective layer 5 are laminated.
The release layer 12 can be peeled from the transparent film 11.
[0036]
This type of authenticity identification layer forming film 10 is laminated on the substrate 2 that is an adherend with the transparent film 11 facing upward, and the transparent film 11 is peeled off during lamination. Authentic discriminating transfer sheet used for transferring other layers. Again, transfer is performed by pressurization, preferably by pressurization while heating.
[0037]
In the authenticity distinguishable transfer sheet described with reference to FIG. 3 (b), the transparent film 11 can be replaced with a film having no transparency. In consideration of use, it is preferable that it is transparent because it is easy to handle.
The release layer 12 may be omitted if the subsequent layers (referred to as a transfer layer) excluding the release layer 12 and the transparent film 11 can be peeled off.
[0038]
The protective layer 5 may be omitted as described above. The transparent intermediate layer 7 should be provided, but may be omitted if the protective layer 5 can have the function of the transparent intermediate layer 7 together. When the protective layer 5 and the transparent intermediate layer 7 do not need to have advanced functions, the release layer 12 is provided with the functions of the protective layer 5 and the transparent intermediate layer 7 together. The transparent intermediate layer 7 can be omitted.
The transparent adhesive layer 6 and the adhesive layer 8 can be omitted as in the case described with reference to FIG.
[0039]
As the transparent film 11, there is no polarizing property, and heat resistance and solvent resistance necessary for sequentially laminating the above-described layers by coating or the like, and the formed authenticity identification layer forming film 10 is attached. When pasting or transferring onto the base material 2 which is a body, heat resistance is also necessary, and it is preferable to use a plastic film having these performances, for example, a polyethylene terephthalate film (hereinafter, simply, (Displayed as PET film), polycarbonate film, polyvinyl alcohol film, polysulfone film, polyethylene film, polypropylene film, polystyrene film, polyarylate film, triacetyl cellulose film, diacetyl cellulose film, or olefin vinyl alcohol copolymer And the like can be used Irumu.
The thickness of the transparent film 11 is preferably 5 to 250 μm, and more preferably 10 to 50 μm in consideration of processability, tensile strength, thermal efficiency during thermal transfer, and the like.
[0040]
If necessary, on the transparent film 11, apart from the release layer 12, a release layer that adheres to the transparent film 11 and is easily peeled off afterwards is formed as a release property. May be. The release layer is obtained by adding a wax, a silicone resin, or the like to a resin having adhesiveness to the film-like substrate 10 such as a polyester resin.
In the case of the authenticity identifier transfer sheet, the transparent film 11 may be replaced with a film that is not transparent, but the material is the same as the material of the transparent film described above.
[0041]
The release layer 12 is for stabilizing the adhesive force between the transparent film 11 and the transfer layer as appropriate, and for releasing the transfer layer smoothly during transfer. Here, as described above, it is assumed that transfer is performed on the adherend together with the transfer layer by transfer. In some cases, a release primer layer may be interposed in order to secure the adhesive force between the release layer 12 and the transfer layer.
[0042]
The release layer 12 includes an acrylic skeleton resin such as an acrylic resin, a vinyl chloride / vinyl acetate copolymer, a mixture of cellulose acetate and a thermosetting acrylic resin, a resin selected from a melamine resin, a nitrocellulose resin, and the like. Accordingly, it is composed of a resin composition containing polyethylene wax, wax, silicone resin or the like as an additive. A polyester resin can be added to the resin in order to adjust the peel force, in particular to increase the peel force.
These resins and additives are dissolved or dispersed together with an appropriate solvent and applied as a release layer forming ink composition or coating composition by known printing means or coating means, and dried by appropriate means. The release layer 12 can be formed by solidifying.
[0043]
Examples of the adhesive constituting the adhesive layer 8 include polyvinyl acetate resin, polyvinyl alcohol, polyvinyl acetal (polyvinyl formal, polyvinyl butyral, etc.), cyanoacrylate, polyvinyl alkyl ether, polyvinyl chloride, polyamide, polymethyl methacrylate, nitro Cellulose, cellulose acetate, thermoplastic epoxy, polystyrene, ethylene-vinyl acetate copolymer, ethylene-ethyl acrylate copolymer, urea resin, melamine resin, phenol resin, resorcinol resin, furan resin, epoxy resin, unsaturated polyester resin, polyurethane resin , Polyimide, polyamideimide, polybenzimidazole, polybenzothiazole, etc., or rubber-based natural rubber, recycled rubber, styrene-butadiene rubber, acrylo Tolyl - butadiene rubber, chloroprene rubber, butyl rubber, polysulfide rubber, silicone rubber, polyurethane rubber, stereo rubber (synthetic natural rubber), ethylene-propylene rubber, block copolymer rubbers (SBS, SIS, SEBS, etc.) can be used.
[0044]
The authenticity identifier 1 of the present invention can confirm authenticity as shown in FIG. 4 or FIG.
4 is obtained by sequentially laminating a liquid crystal layer 3 and a transparent microbead layer 4 on a substrate 2, and the liquid crystal layer 3 is completely covered with the transparent microbead layer 4. .
The liquid crystal layer 3 is composed of a cholesteric liquid crystal having a left-handed structure and reflects left circularly polarized light. However, under normal scattered light, the upper transparent microbead layer 4 irregularly reflects illumination light, Although it appears to be uniformly whitish, the transparent microbead layer 4 is located at the point 14 where the light hits when illuminated by the parallel light illumination 13 from a direction perpendicular to the authenticity identification body 1, that is, from directly above. Reflected on the surface of the liquid crystal layer 3 immediately below, the color of the liquid crystal layer 3 can be visually confirmed.
Next, the liquid crystal layer 3 is confirmed by using a discriminator 15 that converts a linearly polarizing plate that transmits only linearly polarized light and the linearly polarized light into circularly polarized light (here, left circularly polarized light). A combination with a quarter wave plate is used.
If substantially parallel light is applied from directly above and viewed through the discriminator 15, it can be determined that the liquid crystal layer 3 reflects left circularly polarized light.
[0045]
The authenticity identification body 1 in FIG. 5 is obtained by sequentially laminating a liquid crystal layer 3 and a transparent microbead layer 4 on a base material 2, and the liquid crystal layer 3 is obtained by converting FIG. 2 (a) or FIG. 2 (b). As described above, the character string “ABC” is formed as a latent image in the horizontal direction by the separate pattern of the liquid crystal layer A (reference 3a) and the liquid crystal layer B (reference 3b). Again, the liquid crystal layer 3 is completely covered with the transparent microbead layer 4.
In the authenticity identification body 1 of FIG. 5 as well, the transparent microbead layer 4 only appears whitish under scattered light. The character string “ABC” and the background can be visually confirmed by the colors of the portions 3 a and 3 b that constitute the liquid crystal layer 3.
When the character string “ABC” is made of a liquid crystal that reflects left circularly polarized light and the background of the character string “ABC” is made of a liquid crystal that reflects right circularly polarized light, The column “ABC” can be determined, and at this time, the background portion cannot be confirmed. In addition, by using the discriminator obtained by rotating the polarizing plate of the discriminator 90 °, it is possible to confirm the reflection of the right circularly polarized light in the background portion. At this time, in the character string “ABC” portion, the right circular polarized light is reflected. The reflection cannot be confirmed.
From the above, it can be confirmed that both the character string and the background portion have predetermined optical properties, and it can be confirmed that the authenticity identifier 1 is authentic.
[0046]
As described above, the latent image may not be formed by coating different liquid crystal layers, but may be composed of one type of liquid crystal layer and a background that is not a liquid crystal layer.
The light source 13 may be any light source that can illuminate with substantially parallel light, and can be used for a flashlight equipped with a reflecting mirror, a headlamp of a motorcycle or a passenger car, and the like and needs to be strictly parallel light. Although not necessarily, scattered light sources such as fluorescent lamps are less preferred.
[0047]
The base material 2 of the authenticity identifier 1 of the present invention is as described above in terms of material, but the base material 2 may be a base material for various information recording media.
For example, the base material 2 may be a base material for an ID (identification) card. Specifically, the ID card may be a bank saving deposit card, a credit card, an ID card (student ID or employee ID card), a card form, but an ID examination card, passport, etc. . So-called ID information is recorded on these base materials.
[0048]
Moreover, the base material 2 of the authenticity identification body 1 of this invention can be base materials, such as a banknote, a gift certificate, a stock certificate, or a security. Information such as the amount of money or the number of similar items is recorded on these base materials.
Further, the base material 2 of the authenticity identifier 1 of the present invention is a base material such as a driver's license, a card-type certificate, for example, a safety, hygiene qualification, or grade indicating fire prevention, disinfection or fire prevention. It can be. Each of these base materials is recorded with information on the contents to be guaranteed or proved.
Substrates such as winning lottery tickets, horse race tickets, and bicycle race tickets, and car tickets may also be the base material 2 of the authenticity identifier 1 of the present invention. Information such as numbers to be selected by lottery is recorded on these base materials.
Both pieces of information are important because they can cause economic damage and confusion if they are counterfeited with fraudulent intentions.
[0049]
In addition to the above, the base material 2 of the authenticity identifier 1 of the present invention is a high-priced product such as a luxury wristwatch, jewelry, precious metal, or antique, or a box, case, or bag for storing them. It may be a packaging container, or a copy itself in which software such as music software, video software, computer software, or game software is stored in a medium such as a magnetic recording medium or an optical recording medium. It may be a packaging container such as a box or a case.
Since these are expensive, they are easy to make counterfeits or duplicates with fraudulent intentions.
[0050]
The authenticity identifier transfer label or authenticity identifier transfer sheet of the present invention is preferably cut in advance according to the shape of the substrate 2 that is the adherend and the shape of the portion to be applied.
In the case of the authenticity identifier transfer sheet 10, a portion other than the transparent film 11 (when the release layer is accompanied, the release layer is also included in the transparent film 11) is punched out. By removing the sheet, it is possible to apply only a transfer layer having a predetermined shape from the large-size or rolled-up authenticity identifier transfer sheet 10 to the substrate 2 that is an adherend, and authenticity identification. There is an advantage that the body transfer sheet 10 can be handled without being subdivided.
[0051]
At this time, only the transfer layer having a predetermined shape may be left and each layer other than the peelable sheet between adjacent labels may be removed. In this case, the transparent film 11 may be perforated so that the individual transfer layers can be separated together with the transparent film 11.
In the case of the authenticity identifier transfer label 10, it is preferable to cut it into a predetermined shape in advance.
[0052]
【The invention's effect】
First According to the first aspect of the present invention, the liquid crystal layer can be easily discriminated by using the polarizing plate while having a matte feeling on the surface and only having a colored layer in the lower layer. , Can provide an authenticity identifier that is immediately found to be counterfeit With Since the latent image of the liquid crystal layer is visualized by illuminating with parallel light, it is possible to provide an authenticity discriminator with further increased forgery difficulty. Second According to the invention of First Since the base material of the authenticity identifier having the effect of the invention is used as the base material of an information recording medium made for various uses having important records, an information recording medium capable of authenticity identification is provided. can do. Third According to the invention of First 1 Or 2 Since the base material of the authenticity identification body having the effect of the invention is an article or its container in which an unauthorized counterfeit or replica is easily made, an article capable of authenticity identification can be provided. 4th According to the invention, since the transparent microbead layer, the liquid crystal layer, and the like are laminated on the lower surface of the transparent film, the authenticity identifier, the information recording medium capable of authenticity identification, or the authenticity identification is obtained. Therefore, it is possible to provide an authenticity-identifiable label suitable for producing an article capable of processing. 5th According to the invention, since the transparent microbead layer, the liquid crystal layer, and the like are detachably laminated on the lower surface of the film, the authenticity identifier, the information recording medium capable of authenticity identification, or the authenticity An authenticity-identifiable transfer sheet suitable for producing a distinguishable article can be provided.
[Brief description of the drawings]
FIG. 1 is a diagram showing a basic structure of an authenticity identifier of the present invention.
FIG. 2 is a diagram showing a structure of an authenticity identifier in which a liquid crystal layer forms a pattern.
FIG. 3 is a view showing a structure of an authenticity identification layer forming film.
FIG. 4 is a diagram showing anti-counterfeiting properties by a liquid crystal layer.
FIG. 5 is a diagram showing anti-counterfeiting properties by a liquid crystal pattern.
[Explanation of symbols]
1 authenticity identifier
2 Base material
3 Liquid crystal layer
4 Micro transparent bead layer
5 Protective layer
6 Transparent adhesive layer
7 Transparent intermediate layer
8 Adhesive layer
10 Film for forming authenticity identification layer
11 Transparency film
12 Release layer
13 Parallel light illumination
15 Discriminator

Claims (5)

On a base material, a cholesteric liquid crystal layer containing a liquid crystal pigments, and transparent fine beads layer made of transparent fine beads having retroreflectivity are stacked true Tadashisei identifying objects whose coloring depend on the viewing angle ,
An authenticity identifier, wherein the liquid crystal layer forms a latent image . Claim 1 Symbol placement authenticity identifying object substrate of, authenticity of the identification information recording medium, wherein the information is a substrate of the recorded information recording medium. 3. An authentically identifiable article, wherein the authenticity identifier substrate according to claim 1 or 2 is a medium storing a high-priced product or software, or a packaging container thereof.   On the lower surface of the transparent film, a bonding layer made of a transparent resin, a transparent microbead layer made of transparent microbeads having retroreflectivity, a liquid crystal layer containing a cholesteric liquid crystal pigment having polychromaticity depending on viewing angle, and an adhesive An authenticity distinguishing label characterized in that layers are laminated.   A bonding layer made of a transparent resin, a transparent microbead layer made of transparent microbeads having retroreflectivity, a liquid crystal layer containing a cholesteric liquid crystal pigment having polychromaticity depending on the viewing angle, and an adhesive layer on the lower surface of the film An authenticity distinguishable transfer sheet, wherein a transfer layer comprising each layer is laminated so as to be peelable from the film.

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